WO2010077691A2 - Bouton de tourelle multifonction - Google Patents

Bouton de tourelle multifonction Download PDF

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Publication number
WO2010077691A2
WO2010077691A2 PCT/US2009/067215 US2009067215W WO2010077691A2 WO 2010077691 A2 WO2010077691 A2 WO 2010077691A2 US 2009067215 W US2009067215 W US 2009067215W WO 2010077691 A2 WO2010077691 A2 WO 2010077691A2
Authority
WO
WIPO (PCT)
Prior art keywords
slip
adjustment
engagement member
adjustment member
rotation
Prior art date
Application number
PCT/US2009/067215
Other languages
English (en)
Other versions
WO2010077691A3 (fr
Inventor
Bernard T. Windauer
Original Assignee
Windauer Bernard T
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Windauer Bernard T filed Critical Windauer Bernard T
Priority to US13/133,454 priority Critical patent/US8670179B2/en
Publication of WO2010077691A2 publication Critical patent/WO2010077691A2/fr
Publication of WO2010077691A3 publication Critical patent/WO2010077691A3/fr

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G1/00Sighting devices
    • F41G1/44Spirit-level adjusting means, e.g. for correcting tilt; Means for indicating or correcting tilt or cant
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G1/00Sighting devices
    • F41G1/38Telescopic sights specially adapted for smallarms or ordnance; Supports or mountings therefor
    • GPHYSICS
    • G02OPTICS
    • G02BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
    • G02B23/00Telescopes, e.g. binoculars; Periscopes; Instruments for viewing the inside of hollow bodies; Viewfinders; Optical aiming or sighting devices
    • G02B23/14Viewfinders
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/20Control lever and linkage systems
    • Y10T74/20576Elements
    • Y10T74/20732Handles
    • Y10T74/20834Hand wheels
    • Y10T74/2084Knob or dial

Definitions

  • FIG. 1 shows a top view of a first exemplary embodiment of a Multi-function Turret Knob (MTK) according to the subject matter disclosed herein;
  • MTK Multi-function Turret Knob
  • Figure 2 shows a right side view of the first exemplary embodiment of an MTK according to the subject matter disclosed herein; 143.0018 1
  • Figure 3 shows a left side view of the first exemplary embodiment of an MTK according to the subject matter disclosed herein;
  • Figure 4 shows a back end cross-sectional view of the first exemplary embodiment of an MTK taken along line A-A in Figure 1 according to the subject matter disclosed herein;
  • FIG. 5 shows a top left perspective view of a second exemplary embodiment of a Multi-Function Turret Knob (MTK) mounted on an exemplary embodiment of an optical rifle scope according to the subject matter disclosed herein;
  • MTK Multi-Function Turret Knob
  • Figures 6A and 6B respectively show exploded top left and top right perspective views of the second exemplary embodiment of the MTK shown in Figure 5;
  • Figure 7 depicts a first exemplary reticle view through an optical firearms scope with electronic/digital markers to indicate erector tube assembly movements according to the subject matter disclosed herein;
  • Figure 8 depicts a second exemplary reticle view 800 through an optical firearms scope with electronic/digital markers to indicate erector tube assembly movements according to the subject matter disclosed herein
  • a turret knob comprises a first adjustment member adjustably positionable about an axis of rotation, a second adjustment member adjustably positionable about the axis of rotation; and a slip/engagement member positioned between the first adjustment member and the second adjustment member along the axis of rotation.
  • the first and second adjustment members each adjust an optical adjustment of an optical scope.
  • 143.0018 2 member is movable between three positions along the axis of rotation. In a first position of the slip/engagement member, the slip-engagement member does not engage the first adjustment member or the second adjustment member. In the second position of the slip/engagement member, the slip/engagement member engages the first adjustment member to rotatably adjust the first adjustment member about the axis of rotation as the slip/engagement member is rotated about the axis of rotation and not engage the second adjustment member. In a third position of the slip/engagement member, the slip/engagement member engages the second adjustment member to rotatably adjust the second adjustment member about the axis of rotation as the slip/engagement member is rotated about the axis of rotation and not engaging the first adjustment member.
  • the first adjustment member comprises a drum member that engages the slip/engagement member if the slip/engagement member is positioned to the second position of the slip/engagement member
  • the second adjustment member comprises a drum member that engages the slip/engagement member if the slip/engagement member is positioned to the third position of the slip/engagement member.
  • the drum member of both the first and second adjustment members engage the slip/engagement member with at least one spline, pin, or serration, or combinations thereof.
  • the turret knob further comprises sensors capable of sensing the rotary position of the first or the second adjustment members, or combinations thereof.
  • a reticle of the optical scope comprises a display of the sensed rotary position of the first adjustment member.
  • the display comprises an adjustable numeric marker or a digital display of the sensed rotary position of the first and the second adjustment members, or combinations thereof.
  • a turret knob according to the subject matter disclosed herein comprises a first adjustment member adjustably positionable about an axis of rotation, and a second adjustment member adjustably positionable about the axis of rotation.
  • the first and second adjustment members are independently adjustable about the axis of rotation. Additionally, the first and second adjustment members each adjust 143.0018 3 an optical adjustment of an optical scope.
  • the turret knob further comprises a slip/engagement member positioned between the first adjustment member and the second adjustment member along the axis of rotation. The slip-engagement member is movable between three positions along the axis of rotation. In a first position of the slip/engagement member, the slip-engagement member does not engage the first adjustment member or the second adjustment member.
  • the slip/engagement member engages the first adjustment member to rotatably adjust the first adjustment member about the axis of rotation as the slip/engagement member is rotated about the axis of rotation and does not engage the second adjustment member.
  • the slip/engagement member engages the second adjustment member to rotatably adjust the second adjustment member about the axis of rotation as the slip/engagement member is rotated about the axis of rotation and does not engage the first adjustment member.
  • FIGS 1-4 respectively show different views of a first exemplary embodiment of a Multi-Function Turret Knob (MTK) 100 mounted on an exemplary optical rifle, or firearm, scope 101 according to the subj ect matter disclosed herein.
  • MTK 100 comprises an elevation adjustment section 102, a slip/engagement ring 103, and a windage adjustment section 104.
  • the interior construction of optical rifle scope 101 remains essentially conventional with the exception of an erector tube assembly 107 (shown in Figure 4, but not shown in Figures 1-3) that is configured for operation with MTK 100.
  • Erector tube assembly 107 is physically adjusted to provide horizontal (i.e. , the windage adjustment) and vertical (elevation) adjustment of the internal aiming point of optical rifle scope 101.
  • Erector tube assembly 107 is conventionally positioned in a horizontal direction (left or right of a centered position as viewed in Figure 4) based on a screw- thread or helix force exerted by windage adjustment section 104 and spring-pressure counter force in opposition to the screw-thread or helix force that is provided by a spring (not shown). That is, as windage adjustment section 104 is rotated, erector tube assembly 107 is selectably positioned in a horizontal direction and thereby shifting the internal aiming point (dot or cross hair) to the left or right. It should be understood that the exact
  • 143.0018 4 mechanical configuration providing the screw-thread or helix force and the spring- pressure counter force for the horizontal adjustment can be any of a number of well- known mechanical configurations.
  • Erector tube assembly 107 is positioned in a vertical direction (above or below a centered position as viewed in Figure 4) based on one of two techniques.
  • the first technique utilizes a horizontally oriented eccentric cam/shaft (not shown) that is located below erector tube assembly 107 as viewed in Figure 4.
  • the eccentric cam/shaft is rotated either directly or indirectly (i.e., through a gearing arrangement) by the externally located elevation knob section 102 of MTK 100.
  • a lifting force is applied to the bottom of erector tube assembly 107, thereby raising the internal aiming point (dot reticle or cross hair).
  • a spring- pressure counter force is applied in a well-known manner to the top of erector tube assembly 107 by a spring (not shown). It should also be understood that the horizontal eccentric cam/shaft could be configured to be above erector tube assembly 107 as viewed in Figure 4. Accordingly, for this alternative configuration, the spring-pressure counter force would be applied to the bottom of erector tube assembly 107.
  • the second technique for positioning Erector Tube Assembly 107 utilizes a pin/trunnion (not shown) that is installed on erector tube assembly 107.
  • the pin of the pin/trunnion engages a helical groove that is formed in a rotary plate (having a horizontal axis center of rotation through the center of MTK 100) that is attached to and/or directly or indirectly rotated as elevation adjustment Section 102 of MTK 100 is rotated.
  • the helical groove imparts a lifting force on the pin/trunnion that, in turn, lifts (or lowers) erector tube assembly 107, thereby raising (or lowering) the internal aiming point (dot reticle or cross hair).
  • Slip/engagement ring 103 of MTK 100 has a dual purpose. If the slip/engagement ring 103 remains centered (first position)(via a ball detent pressure), slip/engagement ring 103 is allowed to "free wheel" in the ball-detent position and, consequently, does not impart a rotational adjustment force to either elevation adjustment section 102 or windage adjustment section 104 of MTK 100.
  • slip/engagement Ring 103 If slip/engagement Ring 103 is pushed toward 143.0018 5 elevation adjustment section 102 (second position), slip/engagement ring 103, moves from the ball-detent position, engages with splines, pins, or serrations, or combinations thereof, that are part of elevation adjustment section 102, thereby allowing rotational forces of slip/engagement ring 103 to be imparted to elevation adjustment section 102. If the force pushing slip/engagement ring 103 toward elevation adjustment section 102 is released, spring pressure provided by a spring (not shown) returns slip/engagement ring 103 to the centered ball detent position (first position).
  • slip/engagement ring 103 If slip/engagement ring 103 is pulled toward windage adjustment section 104 (third position), slip/engagement ring 103 moves from the ball-detent position, engages with splines, pins, or serrations, or combinations thereof, that are part of windage adjustment section 104, thereby allowing rotational forces of slip/engagement ring 103 to be imparted to windage adjustment section 104. If the force pulling slip/engagement ring 103 towards windage adjustment section 104 is released, spring pressure provided by a spring (not shown) returns slip/engagement ring 103 to the centered ball detent position (first position). Automatic return to a "centered position" may or may not be provided dependent on design.
  • Figures 1-4 also depict exemplary embodiments of a parallax adjustment knob 105, and an illuminated reticle knob 106.
  • a parallax adjustment knob 105 operates in a well-known manner to adjust parallax of optical rifle scope 101.
  • One exemplary embodiment of illuminated reticle knob 106 provides user-selected illumination of a reticle (internal aiming point (dot or cross hair)) of optical rifle scope 101. Both parallax adjustment knob 105 and illuminated reticle knob 106 can optionally be included with optical rifle scope 101.
  • 143.0018 6 embodiment of an MTK could be configured for right-handed operation on an optical rifle scope.
  • the exemplary embodiment of MTK 100 depicted in Figures 1-4 shows the portions of elevation adjustment section 102 and windage adjustment section 104 on which the calibration markings are visible to be accessible to be touched.
  • one or both of the elevation adjustment section 102 and the windage adjustment section 104 could be configured to be recessed with respect to the external diameters of slip/engagement ring 103 and an end of MTK 100 that is distal to optical rifle scope 101, thereby reducing the ability to contact elevation adjustment section 102 and windage adjustment section 104.
  • one or both of the elevation adjustment section 102 and the windage adjustment section 104 could be covered with a suitable transparent protective covering so that a user can readily observe the calibration marking for an adjustment setting.
  • one or both of the elevation adjustment section 102 and windage adjustment section 104 could be covered with a protective covering that comprises a window or an aperture through which a user can readily observe the calibration marking for an adjustment setting.
  • slip/engagement ring 103 could be covered with a protective covering that comprises one or more windows or apertures through which a user can make adjustments of the elevation and windage settings of the optical rifle scope.
  • knobs are then loosened from the internal mechanical assembly to align the "zero" index mark on the rotating knob with the fixed index mark on the scope body. Based on the aligning of the two marks the scope can be adjusted during use and returned to the "zero" or the base setting where the point of aim and point of bullet impact are aligned with one another.
  • Figure 5 shows a top left perspective view of a second exemplary embodiment of a Multi-Function Turret Knob (MTK) 500 mounted on an exemplary embodiment of an optical rifle, or firearm, scope 501 according to the subject matter disclosed herein.
  • Figure 5 shows a perspective view of the second embodiment of MTK 500 mounted on the exemplary embodiment of optical rifle scope 501.
  • a parallax adjustment knob 504 is also shown in Figure 5 .
  • Figures 6A and 6B respectively show exploded top left and top right perspective views of MTK 500 in relationship to optical rifle scope 501.
  • MTK 500 comprises an elevation adjustment section 502, a slip/engagement ring 503, and a windage adjustment section 504.
  • the interior construction of optical rifle scope 501 remains essentially conventional with the exception of an erector tube assembly 507 that is configured for operation with MTK 500.
  • the front of the erector tube assembly 507 is physically adjusted to provide horizontal (i.e., the windage adjustment) and vertical (elevation) adjustment of the internal aiming point of optical rifle scope 501.
  • Erector tube assembly 507 is conventionally positioned in a horizontal direction (left or right of a centered position as viewed in, for example, Figure 4) by pivoting around the spherically shaped end section and based on helical slot/windage pin 512 or the conventional screw-thread 143.0018 8 force exerted by windage adjustment section 504 and spring-pressure counter force in opposition to the screw-thread force that is provided by a spring (not shown). That is, as windage adjustment section 504 is rotated, erector tube assembly 507 is selectably positioned in a horizontal direction and thereby shifts the internal aiming point (dot or cross hair) to the left or right. It should be understood that the exact mechanical configuration providing helical slot/windage pin 512 or screw-thread force and the spring-pressure counter force for the horizontal adjustment can be any of a number of well-known mechanical configurations.
  • Erector tube assembly 507 is positioned in a vertical direction (above or below a centered position as viewed in Figure 7 and 8) based on one of two techniques.
  • the first technique utilizes a horizontally oriented eccentric cam/shaft (not shown) that is located below erector tube assembly 507 as viewed in Figures 6 A and 6B.
  • the eccentric cam/shaft is rotated either directly or indirectly (i.e., through a gearing arrangement) by the externally located elevation knob section 502 of MTK 500.
  • a lifting force is applied to the bottom of erector tube assembly 507, thereby raising the internal aiming point (dot reticle or cross hair as shown in Figures 7 and 8).
  • a spring-pressure counter force is applied in a well-known manner to the top of erector tube assembly 507 by a spring (not shown). It should also be understood that the horizontal eccentric cam/shaft could also be configured to be above erector tube assembly 507 as viewed in Figures 6 A and 6B. Accordingly, for this alternative configuration, the spring-pressure counter force would be applied to the bottom of erector tube assembly 507.
  • the second technique for positioning erector tube assembly 507 utilizes an elevation pin 508 (Figure 6A) that is installed on erector tube assembly 507.
  • the elevation pin 508 engages a helical groove 510b ( Figure 6B) that is formed in an elevation drum 510 (having a horizontal axis center of rotation through the center of MTK 500 around elevation hub 509) that is attached to and/or directly or indirectly rotated around elevation hub 509 of MTK 500.
  • Elevation hub 509 is fixed with respect to the body of optical rifle scope 501.
  • the helical groove 510b imparts a lifting force on the elevation pin 508 that, in 143.0018 9 turn, lifts (or lowers) erector tube assembly 507, thereby raising (or lowering) the internal aiming point (dot reticle or cross hair as shown in Figures 7 and 8).
  • Slip/engagement ring 503 of MTK 500 has a dual purpose. If the slip/engagement ring 503 remains centered (first position)(via a ball detent pressure), the slip/engagement ring 503 is allowed to "free wheel” in a ball-detent position and, consequently, does not impart a rotational adjustment force to either elevation adjustment section 502 or windage adjustment section 504 of MTK 500.
  • slip/engagement ring 503 If slip/engagement ring 503 is pushed toward elevation adjustment section 502 (second position), slip/engagement ring 503 moves from the ball-detent position, engages with splines, pins, or serrations 510a, or combinations thereof, that are part of elevation drum 510, thereby allowing rotational forces of slip/engagement ring 503 to be imparted to elevation adjustment section 502. If the force pushing slip/engagement ring 503 toward elevation adjustment section 502 is released, spring pressure provided by a spring (not shown) returns slip/engagement ring 503 to the centered ball detent position (first position).
  • slip/engagement ring 503 moves from the ball-detent position, engages with splines, pins, or serrations 515a, or combinations thereof, that are part of windage drum 515, thereby allowing rotational forces of slip/engagement ring 503 to be imparted to windage drum 515 and windage helix ring 514.
  • the pin moves to the left or right thereby moving the erector tube assembly 507 to the left or right.
  • Rotation of the windage adjustment section 504 can also move the erector tube assembly 507 with screw threads in a well known manner. If the force pulling slip/engagement ring 503 towards windage adjustment section 504 is released, spring pressure provided by a spring (not shown) returns slip/engagement ring 503 to the centered ball detent position (first position). Automatic return to a "centered position" may or may not be provided dependent on design. As retainer cap 516 is retained to the elevation adjustment hub 509 in a fixed manner and the slip/engagement ring 503 is allowed to slip or "free wheel” around the elevation adjustment hub 509, any inadvertent contact with the MTK will not cause unwanted adjustment of the windage or elevation settings.
  • Zeroing of adjustment sections 502 and 504 to match bullet impact locations can be accomplished using set screws or spring-loaded pins in a well-known manner.
  • Datum (bottom stop) positions can also be provided in a well-known manner as depicted in Figures 5 and 6 to allow alignment of the "zero" digit of the index scale to the fixed "datum” mark on the optical rifle scope 501.
  • Figures 5, 6A and 6B also depict exemplary embodiments of a parallax adjustment knob 505, and an illuminated reticle knob 506.
  • a parallax adjustment knob 505 operates in a well-known manner to adjust parallax of optical rifle scope 501, but is positioned at the top of the rifle scope to allow adjustment by the operator with a minimum of body movement while in the shooting position.
  • One exemplary embodiment of illuminated reticle knob 506 provides user-selected illumination of a reticle (internal aiming point (dot, post, cross hair, or custom pattern)) of optical rifle scope 501, but is positioned at the right side of the scope due to the infrequency of use. Both parallax adjustment knob 505 and illuminated reticle knob 506 can be combined into one unit or separate units and be optionally included with optical rifle scope 501.
  • MTK 500 depicted in Figures 5, 6A and 6B is configured for left-handed operation on an optical rifle scope. It should be understood that MTK 500 and optical rifle scope 501 could be configured for either right-handed or left-handed operation in the field.
  • FIG. 5 The exemplary embodiment of MTK 500 depicted in Figures 5, 6A and 6B show the portions of elevation adjustment section 502 and windage adjustment section 504 on which the calibration markings are visible and accessible to be touched.
  • one or both of the elevation adjustment section 502 and the windage adjustment section 504 could be configured to be recessed with respect to the external diameters of slip/engagement ring section 503 and an end of MTK 500 that is distal to optical rifle scope 501, thereby reducing the ability to contact elevation adjustment section 502 and windage adjustment section 504.
  • one or both of the elevation adjustment section 502 and the windage 143.0018 11 adjustment section 504 could be covered with a suitable transparent protective covering so that a user can readily observe the calibration marking for an adjustment setting.
  • one or both of the elevation adjustment section 502 and windage adjustment section 504 could be covered with a protective covering that comprises a window or an aperture through which a user can readily observe the calibration marking for an adjustment setting.
  • knobs are then loosened from the internal mechanical assembly to align the "zero" index mark on the rotating knob with the fixed index mark on the scope body. Based on the aligning of the two marks the scope can be adjusted during use and returned to the "zero" or base setting where the point of aim and point of bullet impact are aligned with one another.
  • the subject matter disclosed herein provides internal adjustable scales 517 and 518 (shown in Figure 6A) that can be aligned with the reticle ("cross hair", “dot”, or custom style) or a type of rotational position indicators 511 and 513 (shown in Figure 6A) to indicate the rotary position of the optical point of aim adjustment knobs to give the relative position of the reticle without having to check the index marks on the outside of the scope.
  • internal scales 517 and 518 are fixed to the body of optical rifle scope 501 and comprise a transparent portion on which a scale has been etched or formed. As the position of erector tube 507 is adjusted by elevation adjustment section 502 and/or windage adjustment section 504, the relative position of the reticle as measured by the scales can be viewed through the reticle. See, for example, Figure 7.
  • rotational position indicators 511 and 513 are respectively fixed to elevation drum 510 and windage drum 515, and their rotation position is sensed in a well-known manner, such as optically and/or electrically.
  • the sensed rotational position of rotation position indicators 511 and 513 is then processed in a well-known manner, such as by, but not limited to, a microcontroller, and displayed as viewed through the reticle. See for example, Figure 8.
  • a microcontroller e.g., a microcontroller
  • the subject matter disclosed herein provides an operator an advantage of making or verifying sight changes without dismounting the rifle to look at the external index marks on the rotating knob and fixed index mark.
  • separate adjustable markers are added to indicate the correct sight settings or direct movement of the erector tube assembly 507 for specific user designated distances.
  • the rotational movement of the adjustment knobs or the direct movement of the erector tube assembly 507 is indicated by electronic or digital numerals in the field of view within the optical firearms scope.
  • Figure 7 depicts a first exemplary reticle view 700 through an optical firearms scope with electronic/digital markers to indicate erector tube assembly movements according to the subject matter disclosed herein.
  • An adjustable numeric marker 701 for elevation position of the internal point of aim (POA) 703 is shown towards the left of the reticle view.
  • the elevation setting for the point of aim can be read at 704.
  • An adjustable numeric marker 702 for lateral movement (windage) of the internal point of aim 703 is shown towards the
  • the windage setting for the point of aim can be read at 705.
  • Markers 701 and 702 can be "zeroed” at any point of adjustment knob rotational position or erector tube assembly elevation of windage position.
  • Figure 8 depicts a second exemplary reticle view 800 through an optical firearms scope with electronic/digital markers to indicate erector tube assembly movements according to the subject matter disclosed herein.
  • digital display 801 for elevation position of the internal point of aim 803 is shown towards the left of the reticle view shown.
  • a digital display 802 for lateral movement (windage) of the internal point of aim 803 is shown towards the bottom of the reticle view shown.
  • Display outputs 801 and 802 can be "zeroed" at any point of adjustment knob rotational position or erector tube assembly elevation of windage position.
  • one exemplary embodiment of the reticle with internal adjustment readings provides variable illumination, such as described in connection with illuminated reticle knob 505, shown in Figures 5, 6 A and 6B. Additionally, it should be understood that the internal adjustment reading reticle depicted in Figures 7 and 8 could be used in an optical rifle scope that uses separate knobs for adjusting elevation and windage. Further still, it should be understood that the particular scales shown as an internal adjustment reading could vary depending on the application. It should also be understood that the internal scales to indicate adjustment settings can be numerically indicated with liquid crystal displays (LCD) or light emitting diodes (LED) or other electronically controlled methods.
  • LCD liquid crystal displays
  • LED light emitting diodes

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  • Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Astronomy & Astrophysics (AREA)
  • General Physics & Mathematics (AREA)
  • Aiming, Guidance, Guns With A Light Source, Armor, Camouflage, And Targets (AREA)
  • Telescopes (AREA)
  • Mechanical Control Devices (AREA)

Abstract

L'invention porte sur un bouton de tourelle comprenant des premier et second éléments de réglage pouvant tous les deux être positionnés de manière réglable autour d'un axe de rotation, et un élément de glissement/mise en prise positionné entre les premier et second éléments de réglage, le long de l'axe de rotation. L'élément de glissement-mise en prise est mobile entre trois positions le long de l'axe de rotation. Dans une première position, l'élément de glissement-mise en prise entre en prise avec les premier ou second éléments de réglage. Dans la deuxième position, l'élément de glissement/mise en prise vient en prise avec le premier élément de réglage, de façon à ne régler de manière rotative que le premier élément de réglage autour de l'axe de rotation, lorsque l'élément de glissement/mise en prise est en rotation autour de l'axe de rotation. Dans la troisième position, l'élément de glissement/mise en prise vient en prise avec le second élément de réglage, pour ne régler de manière rotative que le second élément de réglage autour de l'axe de rotation.
PCT/US2009/067215 2008-12-08 2009-12-08 Bouton de tourelle multifonction WO2010077691A2 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US13/133,454 US8670179B2 (en) 2008-12-08 2009-12-08 Multi-function turret knob

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US12078308P 2008-12-08 2008-12-08
US61/120,783 2008-12-08

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Publication Number Publication Date
WO2010077691A2 true WO2010077691A2 (fr) 2010-07-08
WO2010077691A3 WO2010077691A3 (fr) 2010-09-16

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US9677848B2 (en) 2012-04-18 2017-06-13 Sheltered Wings, Inc. Multiple knob turret
US10724828B2 (en) 2012-04-18 2020-07-28 Sheltered Wings, Inc. Scope turret
EP3730895A1 (fr) * 2019-04-25 2020-10-28 FX Airguns AB Réglage de lunette de visée
EP3851784A1 (fr) * 2020-01-15 2021-07-21 SCHMIDT & BENDER GmbH & Co. KG Dispositif de réglage ainsi que système inverseur et lunette associée
US11105587B2 (en) 2016-01-27 2021-08-31 Sheltered Wings, Inc. Turret with a zero stop
CN114858198A (zh) * 2022-04-11 2022-08-05 深圳市道通科技股份有限公司 一种挂载组件及标定支架
EP4220069A1 (fr) * 2018-08-08 2023-08-02 Sheltered Wings, Inc. D/b/a/ Vortex Optics Système d'affichage pour optique de visualisation

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US8490317B2 (en) 2010-12-30 2013-07-23 Trijicon, Inc. Locking turret
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WO2013102872A1 (fr) 2012-01-04 2013-07-11 Aselsan Elektronik Sanayi Ve Ticaret Anonim Sirketi Ensemble de réglage pour dispositifs de visée
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WO2014081781A1 (fr) * 2012-11-20 2014-05-30 Kruger Optical, Inc. Lunette viseur à affichage oculaire de l'élévation et de la déviation due au vent
DE102013012257A1 (de) 2013-07-24 2015-01-29 Steiner-Optik Gmbh Zielfernrohr mit ASV
US9062934B1 (en) 2013-12-04 2015-06-23 Trijicon, Inc. Locking adjuster
US9625235B2 (en) 2014-03-28 2017-04-18 Trijicon, Inc. Relay assembly for optical sight
EP3186581A4 (fr) * 2014-08-08 2018-02-21 Revic, LLC Mécanisme de tourelle de hausse pour lunette de fusil
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